M. Platino, M. E. García Redondo, L. P. Ferreyro, J. M. Salum, N. A. Müller, J. D. Bonilla-Neira, T. Muscheid, R. Gartmann, J. M. Geria, J. J. Bonaparte, D. A. Almela, L. E. Ardila-Pérez, M. R. Hampel, A. E. Fuster, O. Sander, M. Weber, A. Etchegoyen
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引用次数: 0
摘要
目前正在进行几项实验,以测量宇宙微波背景(CMB)B 模式极化的大小。它是早期宇宙膨胀时代引力波存在的一个有力指标。由于预计 CMB 的 B 模式分量的平均变化量级为几十 nK 或更低,探测这些极化信号需要一个超灵敏系统。本文的重点是在电磁波谱的 150 GHz 频段附近探测 CMB,该频段接近电磁波谱中 CMB 2.7K 黑体频段的峰值。我们提出了一种用于CMB低温探测的读出系统,它基于软件定义无线电(SDR),使用频分复用(FDM)、Goertzel信道器和射频微波SQUID复用器(MUX),可在320mK的低温下工作。这些接口可用于读取由1024个磁性微测辐射计(MMB)组成的阵列,作为在感兴趣波段进行CMB探测的光子限制探测器。作为这些测量要求的一部分,我们介绍了探测和读出链的设计,并展示了其预期性能和可能的实施。所提议的系统能够以模块化方式从阵列中读取所需的探测器数量,从而允许未来的扩展,其频分复用系统通过最大限度地减少有源低温电子设备的数量,提高了低温恒温器的冷却能力。在本文中,我们首先介绍了这种拟议的频分复用读出链,然后介绍了测试实施的噪声测量结果。
The Magnetic Microbolometer Detection Chain: A Proposed Detection System to Observe the B Modes of the Cosmic Microwave Background
Several experiments are currently carried out to measure the magnitude of the B mode polarization of the cosmic microwave background (CMB). It is a strong indicator of the presence of gravitational waves from the early universe inflationary epoch. As the average variations of the B mode components of the CMB are expected to be of the order of a few tens of nK or below, the detection of these polarized signals requires an ultrasensitive system. This article is focused on CMB detection at frequencies around the 150 GHz band of the electromagnetic spectrum, near the peak of the CMB 2.7K blackbody band of the EM spectrum. We propose a readout system for CMB cryogenic detection based on a software-defined radio (SDR) that uses frequency division multiplexing (FDM), a Goertzel channelizer and a radio frequency microwave SQUID multiplexer (\(\mu\)MUX) working at the cryogenic temperatures of \(\approx\) 320mK. These interfaces can be used to read an array of 1024 magnetic microbolometers (MMBs) as detectors that are photon-limited for CMB detection in the band of interest. As part of the requirements for these measurements, we introduce a design of the detection and read out chain and show its expected performance and potential implementation. The proposed system can read the desired number of detectors from an array in a modular way, which allows future expansions, and its frequency division multiplexing system improves the cooling capacity of the cryostat by minimizing the amount of active cryogenic electronics. In this article, we first describe this proposed FDM readout chain and then present noise measurements of a test implementation.
期刊介绍:
The Journal of Low Temperature Physics publishes original papers and review articles on all areas of low temperature physics and cryogenics, including theoretical and experimental contributions. Subject areas include: Quantum solids, liquids and gases; Superfluidity; Superconductivity; Condensed matter physics; Experimental techniques; The Journal encourages the submission of Rapid Communications and Special Issues.